红双喜月季高效组织培养快繁技术

刘子平; 赵春莉; 李金英; 姚思扬; 刘翰升; 潘珠峰

doi:10.19303/j.issn.1008-0384.2019.01.010

红双喜月季高效组织培养快繁技术

doi: 10.19303/j.issn.1008-0384.2019.01.010

1.
吉林农业大学园艺学院, 吉林长春 130118
2.
北京林业大学园林学院, 北京 100083

基金项目:

吉林省联合重点实验室开放基金项目 CWE18-4

详细信息

作者简介:
刘子平(1993-), 女, 硕士研究生, 研究方向:园林植物资源与种质创新(E-mail:1738309862@qq.com)

通讯作者:
赵春莉(1973-), 女, 博士, 副教授, 研究方向:园林植物生物技术及种质资源(E-mail:zcl8368@163.com)

中图分类号: S685.12
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- 被引次数: 0
出版历程
- 收稿日期: 2018-05-12
- 修回日期: 2018-11-14
- 刊出日期: 2019-01-28

Rapid Propagation of Double Delight Chinese Rose Using Tissue Culture

1.
College of Horticulture, Jilin Agricultural University, Changchun, Jilin 130118, China
2.
School of Landscape Architecture, Beijing Forestry University, Beijing 100083, China

摘要

摘要: 目的筛选出红双喜月季各阶段最佳培养条件，并建立组培快繁技术体系，为工厂化生产提供科学依据及技术指导。方法以红双喜月季茎段为试验材料，采用正交设计和随机区组设计等试验方法，开展红双喜月季初代培养、继代增殖、生根培养以及炼苗移栽的研究。结果茎段最佳灭菌处理为75% C₂H₅OH 30 s+0.1% HgCl₂ 6 min；最适初代诱导培养基为MS+3.00 mg·L^-1 6-BA+0.30 mg·L^-1 NAA，诱导率高达95.56%；最适增殖培养基为MS+1.00 mg·L^-1 6-BA+0.10 mg·L^-1 IBA，增殖系数高达6.61；最适生根培养基为1/4MS+0.05 mg·L^-1IBA+2.50 g/L活性炭，生根率高达95.56%；最适移栽基质为V_细沙:V_蛭石:V_珍珠岩:V_椰糠=1:2:3:1，移栽成活率高达98.33%。结论通过茎段直接诱导丛生芽，可以建立红双喜月季高效快繁技术体系。
- 红双喜月季 /
- 组培苗 /
- 快速繁殖 /
- 正交试验 /
- 随机区组
Abstract: Objective To optimize the tissue culture conditions for an efficient, rapid propagation of Double Delight Chinese roses for large scale operations. Method Stems cut from the rose plants were used for the tissue culture optimization with an orthogonal experiment and completely randomized block design method. The initial generation culture, subsequent generations enrichment, rooting enhancement, and transplant augmentation for the plant propagation were evaluated. Result The optimal method to disinfect the stems for propagation was to dip them in 75% C₂H₅OH for 30 s followed by soaking in a 0.1% HgCl₂ solution for 6 min. The most efficient 1^st generation culture was obtained in a medium containing MS+3.00 mg·L^-1 6-BA+0.30 mg·L^-1 NAA with an induction rate of up to 95.56%. The selected enrichment medium was MS+1.00 mg·L^-1 6-BA+0.10 mg·L^-1 IBA to yield a multiplication factor of 6.61. For efficient rooting, the best medium was MS+0.05 mg·L^-1 IBA+2.50 mg·L^-1 activated carbon to result in a 95.56% rate. The mixing ratio of the substrates for seedling transplanting was optimized to be fine sand:vermiculite:perlite:coconut bran=1:2:3:1 that provided a seedling survival rate as high as 98.33%. Conclusion A highly efficient, rapid propagation method using cut stems from Double Delight Chinese rose plants was established for scale-up productions.
- Double Delight Chinese rose /
- culture seedling /
- rapid propagation /
- orthogonal test /
- randomized block

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图 1 红双喜月季组织培养

注：A为增殖苗；B为生根苗；C为移栽苗；D为移栽3个半月后苗。

Figure 1. Tissue culture of Double Delight Chinese rose

Note:A is a proliferating seedling.B is rooting seedling.C is transplanted seedling. D is a seedling cultured for 3 and a half months after transplanting.

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表 1 灭菌时间对外植体接种的影响

Table 1. Effect of disinfection time on explant inoculation

处理 Treatment	灭菌时间Disinfection time/min		污染率 Contamination rate/%	死亡率 Mortality rate/%
处理 Treatment	75%酒精 75% alcohol	0.1%升汞 0.1% mercuric chloride	污染率 Contamination rate/%	死亡率 Mortality rate/%
A₁	0.25	4	65.56±0.96a	0
A₂	0.25	5	58.89±0.91b	0
A₃	0.25	6	34.44±0.76e	0
A₄	0.25	7	18.89±0.94g	4.44±0.56c
A₅	0.50	4	57.78±0.84b	0
A₆	0.50	5	45.56±0.96c	0
A₇	0.50	6	2.22±1.92h	0
A₈	0.50	7	0	17.78±0.94b
A₉	0.75	4	41.11±2.26d	2.22±1.92d
A₁₀	0.75	5	24.44±0.50f	3.33±0.38d
A₁₁	0.75	6	0	18.89±0.13b
A₁₂	0.75	7	0	26.67±1.53a
注：同列数据后不同字母者表示差异达显著水平(P＜0.05)。表 2~8同。 Note:The difference between different letters after the same column data reached a significant level(P＜0.05).The same as table 2-8.

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表 2 诱导率正交试验极差分析及多重比较

Table 2. Extreme difference analysis and multiple comparison on induction rates obtained from orthogonal test

处理 Treatment	因素Factor			诱导率 Inductivity/%
处理 Treatment	A：基本培养基 Minimal medium	B：6-BA 6-Benzylaminopurine /(mg·L^-1)	C：NAA 1-naphthlcetic acid /(mg·L^-1)	诱导率 Inductivity/%
1	1(MS)	1(1.00)	1(0.10)	83.33±3.34b
2	1	2(2.00)	2(0.20)	47.78±5.09c
3	1	3(3.00)	3(0.30)	95.56±1.93a
4	2(B5)	1	2	20.00±3.33de
5	2	2	3	11.11±3.85f
6	2	3	1	14.44±1.93ef
7	3(WPM)	1	3	16.67±3.34ef
8	3	2	1	23.33±3.34d
9	3	3	2	18.89±3.85de
X₁	75.56 a	40.00 a	40.37 a
X₂	15.18 b	27.41 b	28.89 b
X₃	19.63 b	42.96 a	41.11 a
R	60.37	15.56	11.48
最优组合	A₁	B₃	C₃
注：Xv₁、X₂、X₃分别为各列各水平诱导率均值；R为极值。 Note:X₁, X₂, X₃ are the mean values of induction rate at each level in each column, R is the extreme value.

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表 3 6-BA、IBA水平间增殖系数的多重比较

Table 3. Multiple comparison on proliferation coefficients between 6-BA and IBA levels

6-BA 6-Benzylaminopurine/ (mg·L^-1)	均值 Mean value	IBA Indole-3-Butytric acid(mg·L^-1)	均值 Mean value
0.50	4.40b	0.10	5.20a
1.00	5.12a	0.20	4.65b
1.50	3.78c	0.30	3.40c
2.00	2.34d	0.40	2.39d

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表 4 不同质量浓度6-BA与IBA配比对增殖的影响

Table 4. Effects of 6-BA and IBA concentrations on seedling proliferation

处理 Treatment	6-BA 6-Benzylaminopurine /(mg·L^-1)	IBA Indole-3-Butytric acid/(mg·L^-1)	增殖系数 Propagation coefficient	生长状态 Growing status
B₁	0.50	0.10	6.07±0.20b	叶片绿色，株高4 cm左右
B₂	0.50	0.20	5.19±0.23c	叶片翠绿色，株高4.5 cm左右
B₃	0.50	0.30	4.15±0.15e	部分叶片黄色，株高4.8 cm左右
B₄	0.50	0.40	2.20±0.10i	叶片绿色，株高3 cm左右
B₅	1.00	0.10	6.61±0.11a	叶片翠绿，较多腋芽，株高6 cm左右
B₆	1.00	0.20	5.99±0.19b	腋芽叶片黄绿色，株高7 cm左右
B₇	1.00	0.30	4.01±0.15ef	叶绿色个别脱落，株高5.5 cm左右
B₈	1.00	0.40	3.85±0.29f	叶片黄绿色，株高4 cm左右
B₉	1.50	0.10	4.73±0.06d	叶小绿色，株高3.5 cm左右
B₁₀	1.50	0.20	4.55±0.11d	叶片微卷，株高8 cm左右
B₁₁	1.50	0.30	3.58±0.23g	叶翠绿色较小，株高5 cm左右
B₁₂	1.50	0.40	2.25±0.05i	叶黄脱落，基部有愈伤，株高3 cm左右
B₁₃	2.00	0.10	3.40±0.56g	叶小，部分发白，株高3.5 cm左右
B₁₄	2.00	0.20	2.86±0.02h	叶浅绿色，株高4 cm左右
B₁₅	2.00	0.30	1.84±0.02j	叶绿色，株高3 cm左右
B₁₆	2.00	0.40	1.25±0.04k	叶基部浅黄色，株高2.5 cm左右

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表 5 基本培养基对生根的影响

Table 5. Effect of basal medium on rooting of seedlings

处理 Treatment	基本培养基 Minimal medium	IBA Indole-3-Butytric acid/(mg·L^-1)	生根率 Rooting rate /%	平均根数 Average rootnumber/条	平均根长 Average root length/cm	生长状态 Growing status
C₁	MS	0.10	76.67±3.34b	3.50	2.00	褐色，细弱
C₂	1/2MS	0.10	54.44±1.93c	2.10	4.80	白色，较粗
C₃	1/4MS	0.10	84.44±5.09a	5.10	4.30	白色，较粗
C₄	1/6MS	0.10	72.22±3.85b	7.60	6.00	黄褐色，较细
注：生根率为均值±标准差；表 6、7同。 Note:Rooting rate is mean±standard deviation, table 6 and 7 identical.

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表 6 不同浓度IBA、NAA对生根的影响

Table 6. Effect of IBA and NAA concentrations on rooting of seedlings

处理 Treatment	培养基 Medium	IBA Indole-3-Butytric acid/(mg·L^-1)	NAA Naphthlcetic acid/(mg·L^-1)	生根率 Rooting rate/%	平均根数 Average root number/条	平均根长 Average root length/cm	生长状态 Growing status
D₁	1/4MS	0.05	-	91.11±6.94a	5.40	4.90	白色，粗
D₂	1/4MS	0.10	-	84.44±5.09a	5.10	4.30	白色，较粗
D₃	1/4MS	0.15	-	71.11±5.09b	5.60	2.10	黑色，细弱
D₄	1/4MS	-	0.05	60.00±3.33cd	1.00	2.50	黄褐色，细弱
D₅	1/4MS	-	0.10	67.78±6.94bc	2.30	3.20	黄白色，较粗壮
D₆	1/4MS	-	0.15	54.44±5.09d	3.50	4.70	褐色，较细

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表 7 不同活性炭浓度对生根的影响

Table 7. Effect of activated carbon concentration on rooting of seedlings

处理 Treatment	活性炭浓度 Activated carbon concentration/(g·L^-1)	生根率 Rooting rate /%	平均根数 Average root number/条	平均根长 Average root length/cm	生长状态 Growing status
E₁	0	91.11±5.09 ab	4.20	4.50	根较粗，白色
E₂	1.50	76.67±3.34 d	3.50	3.20	根细，白色
E₃	2.00	80.00±3.34 cd	3.00	6.50	根细，白色
E₄	2.50	95.56±1.93 a	4.60	5.30	根较细，白色
E₅	3.00	85.56±5.09 bc	5.20	5.60	根细，白色

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表 8 不同基质正交试验结果极差分析及多重比较

Table 8. Range analysis and multiple comparisons on culture media tested with orthogonal matrix

处理 Treatment	因素Factor				成活率 Survival rate/%
处理 Treatment	A(细沙)Fine sand	B(蛭石)Vermiculite	C(珍珠岩)Perlite	D(椰糠)Coconut bran	成活率 Survival rate/%
F₁	0	1	1	0	63.33±5.77 de
F₂	0	2	2	1	76.67±2.89 c
F₃	0	3	3	2	70.00±5.00 cd
F₄	1	1	2	2	55.00±5.00 f
F₅	1	2	3	0	96.67±2.89 a
F₆	1	3	1	1	86.67±5.77 b
F₇	2	1	3	1	66.67±2.89 de
F₈	2	2	1	2	75.00±5.00 c
F₉	2	3	2	0	61.67±2.89 ef
X₁	70.00 b	61.67 c	75.00 a	74.44 a
X₂	80.00 a	83.33 a	64.67 b	76.67 a
X₃	67.78 b	72.78 b	78.33 a	66.67 b
R	12.22	21.67	13.87	10.00
最优组合	A₂	B₂	C₃	D₂
注：X₁、X₂、X₃分别为各列各水平成活率均值，R为极值。 Note:X₁、X₂、X₃ are the mean values of survival rate at each level in each column, R is the extreme value.

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